Philipp Klos scite author profile

We perform state-of-the-art large-scale shell-model calculations of the structure factors for elastic spin-dependent WIMP scattering off Si. This comprehensive survey covers the nonzero-spin nuclei relevant to direct dark matter detection. We include a pedagogical presentation of the formalism necessary to describe elastic and inelastic WIMP-nucleus scattering. The valence spaces and nuclear interactions employed have been previously used in nuclear structure calculations for these mass regions and yield a good spectroscopic description of these isotopes. We use spin-dependent WIMP-nucleus currents based on chiral effective field theory (EFT) at the one-body level and including the leading long-range two-body currents due to pion exchange, which are predicted in chiral EFT. Results for all structure factors are provided with theoretical error bands due to the nuclear uncertainties of WIMP currents in nuclei.

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Chiral power counting of one- and two-body currents in direct detection of dark matter

Hoferichter

2015

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We present a common chiral power-counting scheme for vector, axial-vector, scalar, and pseudoscalar WIMP-nucleon interactions, and derive all one-and two-body currents up to third order in the chiral expansion. Matching our amplitudes to non-relativistic effective field theory, we find that chiral symmetry predicts a hierarchy amongst the non-relativistic operators. Moreover, we identify interaction channels where two-body currents that previously have not been accounted for become relevant.

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Erratum: Large-scale nuclear structure calculations for spin-dependent WIMP scattering with chiral effective field theory currents [Phys. Rev. D88, 083516 (2013)]

et al. 2014

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Philipp Klos

Large-scale nuclear structure calculations for spin-dependent WIMP scattering with chiral effective field theory currents

Chiral power counting of one- and two-body currents in direct detection of dark matter

Erratum: Large-scale nuclear structure calculations for spin-dependent WIMP scattering with chiral effective field theory currents [Phys. Rev. D88, 083516 (2013)]

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